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7/28/2019 Systematics for Cable Testing
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Cable fault location in power cables
Systematics forcable testing, diagnosis and cable fault location
7/28/2019 Systematics for Cable Testing
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Contents:
1. Testing, diagnos ing and partial discharge measurements2. Cable fault location
Regarding the task to be performed, a distinction must be made between two main groups:
Testing, diagnosing and partial discharge measurementCondition-oriented maintenance
Localising all types of cable faultsResult-oriented maintenance
1. Testing, diagnosing and partial discharge measurement
Objective of the cable test:
` Checking quality before running and fitting a cable` Correcting weak points in the cable which can jeopardise the operation
During the cable test, flash-overs are generated at the weak points in a cable. These faultypoints must then be localised (cable fault location). Depending on the insulation and thetest object, the following voltage forms are mandatory:
Paper-insulated lead-covered cable (PILC) DC voltageAC voltage 50 60 HzVLF (0.1 Hz)
PE/XLPE cable AC voltage 50 60 HzVLF (0.1 Hz)
Components DC voltage and AC voltage 50 60 Hz
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Objective of the dielectric diagnosis and partial discharge measurement:A non-destructive check for testing the condition of the insulation in cables and fittings andlocalising faulty points.
Dielectric diagnosing` Integral check of how the cable has aged by means of IRC analysis (isothermal
relaxation current analysis) in PE and XLPE cable insulation types` Integral check of the moisture content by means of RVM analysis (return voltage
measurement) in paper-insulated lead-covered cables
Partial discharge measurement (PD measurement)Recording, location and evaluation of partial discharges (PD) in the insulation and fittingsof medium voltage cables.Remark: These subjects are dealt with separately in the following articles.
2. Localising all different types of cable faults
The steps necessary for determining fault locations can be sub-divided into five maincatagories.
1. Fault classification identifying the type of fault
2. Pre-location determining the distance to the fault
3. Route tracing determining the route of the cable at the site
4. Pinpointing determining the exact position of the cable the site
5. Cable identification determining the faulty cable amongst several cables
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The following diagram shows the common procedure for identifying and locatingcable faults:
Test (VLF, DC, sheath)Testing the cable
TDR measurement(Teleflex, IFL)
Pre-locating fault position
Pre-location High-voltage methodsARM, Decay, ICE
Pre-locating fault position
no fault detected
fault detected
Sheath fault p re-location(e.g. using the MFM 5-1)
Route tracing and pinpoin tingEstablishing cable route
Pinpointing fault position by means of acoustic andinductive method
Sheath pinpointingPinpointing sheath fault position
sheath fault detected
DC TestDetermining flash-over voltage
Fault conversion
Permanent deformation of the fault
low resistive fault (R)
high resistive fault (R)
Resistance measurementVerification of fault classification
Insulation test (with 500 V or 1000 V)Identifying faulty conductors and fault classification
voltage-dependent fault R(U)
low resistivefault (R)
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Measuring methods in cable fault location:
Insulation test, measuring the resistance of a fault
Testing
`
DC test (determining the flash-over voltage)` Sheath fault test
` VLF test (determining the flash-over voltage)
Pre-location
` Teleflex measurements (pulse reflection measurements,TDR measurements)
` ARM (Arc Reflection Method)
` ARM Plus (Arc Reflection Method Plus)
` ARM power burning
` Decay Plus (Arc Reflection Method igniting the fault using DC generator)
` Decay (travelling wave method, oscillation method)
` Current catching (ICE)
` Three-phase current catching (ICE)
` ICE Plus (low-voltage networks only)
` High-voltage bridge method (pre-locating sheath faults)
` Voltage drop method (pre-locating sheath faults)
Fault conversion
` Burning
` Performance burning
Route tracing
` Line location
` Line routing
Pinpointing
` Audio frequency generator (twist field method, minimum turbidity method)
` Shock discharges (acoustic field method, acoustic pinpointing)
` Pinpointing sheath fault
Cable and phase identification
` Phase identification when earthed` Phase identification and phase determination on live systems
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